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paper

Driven superconducting proximity effect in interacting quantum dots

arXiv:1201.5032 · doi:10.1103/PhysRevB.85.094518

Abstract

We present a theory of non-equilibrium superconducting proximity effect in an interacting quantum dot induced by a time-dependent tunnel coupling between dot and a superconducting lead. The proximity effect, that is established when the driving frequency fulfills a gate-voltage-dependent resonance condition, can be probed through the tunneling current into a weakly-coupled normal lead. Furthermore, we propose to generate and manipulate coherent superpositions of quantum-dot states with electron numbers differing by two, by applying pulsed oscillatory variations to the couplings between dot and superconductors.

6 pages, 5 figures, paper substantially extended: new section, new figure, new references introduced